DE1550912B1 - Storage for the conical pulleys of a conical pulley belt drive - Google Patents

Description

1 2

The invention relates to a bearing. The object explained above is achieved according to the invention

for the conical pulleys of a conical pulley-Um- solved in that at least the fixed disks

Loop transmission, in which one is mounted on each shaft by means of only two bearings on the shaft

axially fixed and one axially movable, each with one that the two bearings are approximately on the inner and

elongated hub provided conical disc is arranged 5 at the outer end of the conical disc hub

is arranged, which are rotatably connected to each other, and that at least the outer bearing as

and angular contact bearings are formed between the shaft and the conical disk hubs.

a roller absorbing the axial and radial forces. The invention achieves that the outer

bearing is provided, whereby the conical pulley angular contact bearings are dimensioned relatively small

over a torque or torque and over- io, since the forces to be supported are essential

Settlement-dependent pressure device can take up better with the shaft. Besides, this is camp

are coupled. - ".. 'J always free of play, so that a tumbling of the cone

In such gears, excessive wear of the bearings is avoided between a disk and thus their uneven running as well as a disk neck and the shaft spaced apart, and two radial bearings are arranged, which are both in position 15, a radial bearing can be saved, which are the absorb radial forces, as well as until the pulley neck and thus the entire cone have the necessary bearing play to prevent the pulley arrangement from tilting in the axial direction, to prevent conical pulleys. The axial forces can, which leads to a smaller structural volume of the gear in the axially "movable disk of the bes. It is not only the task of pressing device added, solved for the fixed disk 20, but also a reduction in size of a thrust bearing, which reached between the end face of the and thus cheaper of the transmission.
Disc neck and a shaft collar is inserted. In an advantageous development of the invention, Ä

With this arrangement, the bearings in which the angular contact bearing of the axially movable disc are the "

The face of the neck of the disk is very heavily loaded, as the pressure device, and the inner one can also

which are formed from the axial and radial force on the 25 bearings as angular contact bearings.

Resulting force resulting from conical pulleys. In the drawings are exemplary embodiments of the

both bearings not only acted on axially and as the subject matter of the invention is shown schematically, and

also shows this from the one on the traction mechanism

exerting contact pressure resulting force in each Fig. 1, the arrangement sketch of such a revolution of the conical pulleys changes. This affects 30 bevel pulley belt transmissions,
with the unavoidable bearing play as an um- F i g. 2 shows the bearing of the conical pulley pairs after ongoing tilting (wobble) of the conical disks, a section H-II of FIG. 1,
from which restless run. and wear result. F i g. 3 the forces emanating from the traction mechanism - the latter in particular - because the bearings in the parallelogram,

the storage of the fixed transmission according to the invention is essential only when the transmission is adjusted do their job while they are otherwise

stand still. Furthermore, the storage according to the invention of both changes as a function of FIG

from the running circle disks of a conical pulley pair occupied by the traction mechanism,

radius is the direction of the F i g acting on the bearings. 6 the same storage as FIG. 5, however

Force, so that in the vicinity of the transition point 40 with hydraulic gear ratio adjustment,

Can train vibrations, which also have a and

restless running of the conical washers and increased ■ F i g. 7 the storage of both disks of a cone bearing wear result. pair of washers with exclusive use g

The object on which the invention is based is an unparalleled bearing. "

45 Two conical pulley pairs 1/2 and 3/4 are on

tion to create the conical pulleys, in which each of their associated shafts 5, 6 by means of two

Bearing play and thus wobbling of the conical disks radial bearings 7, 8, 9, 10 mounted. The camps are here-

as well as uneven running and excessive wear between the shaft 5, 6 and one of the respective

be avoided. .. Conical pulley 1/2 or 3/4 associated pulley neck

To solve this problem it is inserted by 50 11-14. On the face of the Scheibendeutsche Auslegeschrift 1124 779 already known, necks 12 and 13 act in an axial direction of the shaft has a supporting pressing device 15 firmly connected to it, each of which is located on a Provide washer against which the shaft collar 16,17 is not supported axially. The pressing device displaceable conical disk in the axial direction in FIG. 15 consists essentially of two inclined surfaces near its circumference via a thrust bearing and in 55 or curve pieces 18, between which a rolling element radial direction supported by a radial bearing 19 is inserted. The by the pressing device 15 and is rotatably guided. Correspondingly generated and proportional to the shaft torque However, formed gears have the disadvantage that axial force is at the far end of the cone Manufactured in particular as a result of the use of disk pairs 1/2 or 3/4 by an axial bearing 20 of shaft flanges with a large diameter more expensive 60 added, that between each shaft collar than that of the transmission described above, with 21, 22 and the end face of the respective discs is also inserted into the barrel of the transmission unhalses 11,14. The conical disks 1, 2 has a beneficial effect that the two on a shaft and 3, 4, between which the traction means 23 runs, are orderly conical disks differently designed by each one axially displaceable coupling 24 rotating and are supported, which are firmly connected to each other due to the large anchors. To set the compressive forces different deflections of the cone traction circuit or the gear ratio disks and thus undesirable running properties is used via an axial bearing 25 on the cone Consequence. washers 2, 3 acting control lever linkage 26.

From Fig. 3 is the direction of the resulting force 27, which results from the axial force 29 and the Radial force 30, the wedge force of the traction means 23, results, can be seen. From this resulting force 27 the result is a torque which is also decisive for the load on bearings 7 and 20. This Torque can, however, when the traction device runs on a small running circle and the resulting force 28 acts below the "pivot point" at the bearing 8, its direction change so that the direction of force on the radial bearing 7 is reversed. This can help if the traction means 23 in the vicinity of this transition point "runs, due to the necessary existing Bearing play, vibration phenomena of the conical pulley 1 result. As well as the two Radial bearings 7 and 8 determine the position of the conical disk 1 to shaft 5, but this can bend, the axial bearing 20 may be loaded on one side, which is detrimental to its service life.

In Fig. 4, the mounting of the fixed conical pulley 1 is shown according to the invention. Here the disc neck 11 is supported on an angular contact bearing 31 which is located between the end face of the disc neck 11 and a shaft collar 32 is inserted. Except for the angular contact bearing 31 is between the disk neck 11 and Shaft 5 only a single radial bearing 33 is provided. The angular contact bearing 31 is through the resulting Force 27.28 applied approximately vertically; so it is optimally used in terms of its load-bearing capacity. Due to the constantly effective contact pressure and the presence of statically correct certain Force states, any play in the bearing 31 is now avoided, which is now over its entire scope is acted upon, regardless of how the resulting displacement of the traction means 23 Direction of force may also be.

In addition to a play-free angular contact bearing 34 on the end face of the disk neck 11, FIG. 5 shows a pressing device 35 with inclined surfaces 36 and rolling elements 37. This pressing device 35 takes over the function of the radial bearing 10 and the pressing device 15. The overall length of the washer neck 12 can therefore be shortened, to the advantage of the backlash-free mounting of the conical disk 2. It will in this embodiment only the two radial bearings 38, 39 are required.

In Fig. 6 is represented in the same manner as in FIG. 5 the possibility of hydraulic adjustment the gear ratios shown. Via a channel 40 hydraulic fluid is behind the Acting as a piston conical disk 2 is pressed and the distance between the conical disk 1 and the conical disk 1 is adjusted. The spring 41 keeps the inclined surface 42 always in contact with the rolling element 43, causing hard blows on the pressing device 35, for example when reversing the direction of force, can be avoided.

In a last embodiment according to FIG. 7 shows how the radial bearings in the conical disks 1, 2 can be replaced by backlash-free bearings 44, 45. In the example, angular contact bearings are provided in which a bearing ring 46, 47 is pressed against the rolling elements of the angular contact bearings by disc springs 48, 49. This also eliminates the play at this point, thus also completely the uneven running of the conical disks 1, 2 and the associated wear.

Claims (3)

Patent claims: 1. Bearing for the conical pulleys of a conical pulley belt drive, in which on each shaft one axially fixed and one axially movable, each provided with an extended hub Conical disk is arranged, which are rotatably connected to one another, and between the shaft and a roller bearing that absorbs the axial and radial forces is provided for the conical disk hubs is, whereby the conical pulleys have a torque or torque and gear ratio dependent Pressure device are coupled to the shaft, characterized in that at least the fixed disks (1, 3) only by means of two bearings (31, 33, 34, 35, 38, 39, 44,45) are mounted on the shaft (5) that the both bearings are arranged approximately at the inner and outer end of the conical disk hub and that at least the outer bearing (31, 34, 35) is designed as an angular contact bearing. 2. Storage according to claim 1, characterized in that the angular contact bearing of the axially movable Disc (2, 4) is the pressing device (35). 3. Storage according to claim 1 or 2, characterized in that the inner bearing as Angular contact bearing (44, 45) is formed. 1 sheet of COPY drawings